SU843166A1 - Device for automatic stabilizing of amplification factor - Google Patents

Description

The invention relates to radio engineering and can be used in multi-channel radio installations for various purposes, in particular in a three-channel measuring complex designed to measure the parameters of the object.

A device is known for automatic-. ' gain stabilization, which contains a serially connected control signal source, a reference divider, an adder, the second input of which is connected to the main signal source, an adjustable amplifier and a main signal filter, to the input of which a control signal filter is connected [1].

However, the known device has a complex structure.

The purpose of the invention is to simplify the device.

This goal is achieved by the fact that in a device for automatic stabilization of the gain, which contains a serially connected source of a control signal, a reference divider, an adder, the second input of which is connected to a source, a main signal, an adjustable amplifier / amplifier, and a filter of the main signal, to the input of which a filter of the control signal is connected, between the output of the adjustable amplifier and its inverting input, an additional filter of the main signal and an attenuator are connected in series, in one of the arms orogo included thermistor controlled, Ko torogo control input connected to the output of a pilot filter and between the output of the pilot signal source and the input of the attenuator included additional filter control signal.

The drawing shows a structural electrical diagram of a device for automatic stabilization of the gain.

The device contains a serially connected source 1 of the control signal, a reference divider 2, an adder 3, an adjustable amplifier 4 and a filter 5 of the main signal, to the input of which a filter 6 of the control signal is connected. In addition, the device contains an additional filter 7 of the main signal and an attenuator, one of the shoulders of which includes a controlled thermal resistance 8, and the other an exact resistor 9. An additional filter 10 of the control signal is also introduced into the device.

The device operates as follows.

The control signal from the source 1 of the control signal is supplied to the input _ of the reference divider 2 and. through an additional ³ filter of the control signal 10 to the attenuator, one of the arms of which is formed by an exact resistor 9, and the second by a controlled thermo-resistor. by 8. 8. The signal from the output of the reference 'divider 2 is fed to one input of the adder 3, to the second input of which the main signal to be adjusted is supplied. The control input of the controlled thermal resistance 15 8 receives a signal from the output of the adjustable amplifier 4 through the filter of the control signal 6, which is used to filter the average voltage value if DC voltage is used as the control signal 20. The operating point of the adjustable amplifier 4 is set on a linear section automatically and this happens as follows. For example, increasing the control signal at the first input of the adjustable amplifier 4 by the reference divider 2 to the control input 8 receives managed RTD voltage, Great mask 30 which is determined by the difference of control voltage on the _x per- tion and second inputs of the adjustable amplifier 4 and the transmission coefficient without. feedbacks. ' At the same time, the value of the controlled thermal resistance 8 changes from -35 so that the control voltage at the second input of the adjustable amplifier 4 becomes approximately equal to the voltage at its 4Q first input. Thus, with each change in the transfer coefficient of the reference divider 2, the attenuator transfer coefficient changes and the operating point of the adjustable amplifier 4 is set in the operating voltage zone of the controlled thermal resistance 8. The main signal to be adjusted 'is fed to the second input of adder 3 and the output of the adjustable amplifier 4 through the filter 5 of the main signal to the output of the device. At the same time, it comes from the output of the adjustable amplifier 4 through an additional filter 7 of the main signal ⁴ to the input of the attenuator ^ "which forms a negative feedback circuit for the frequency spectrum of the main signal. In this case, the transmission coefficient of the adjustable amplifier 4 is determined by the ratio of the resistance values of the exact resistor 9 and the thermal resistance 8 , which is set by the reference divider 2.

The proposed device for automatic stabilization of the gain is simpler than the known one, since it contains one amplifier, while the implementation of the known device requires two amplifiers. In addition, stabilization of the operating point of the amplifier is possible. On the linear section of the input characteristics without reducing its transmission coefficient indirect feedback using an attenuator.

Claims (2)

The invention relates to radio engineering and can be used in multichannel radio engineering installations for various purposes, in particular to carry in a three-channel measuring complex, designed to measure object parameters. A device is known for automatically stabilizing the Wuxi-Lenin coefficient, which contains a serially connected pilot signal source, a reference divider, an adder, the second input of which is connected to the main signal source, an adjustable amplifier and the main signal filter, to the input of which the pilot signal filter is connected. . However, the known device has a complex structure. The purpose of the invention is to simplify the device. This goal is achieved by the fact that in the device for automatic stabilization of the gain, containing a series-connected source of the control signal, a reference divider, an adder, the second input of which is connected to the source, the main signal, an adjustable amplifier and a filter of the main signal, the input of which is connected to the filter. control signal, between the output of the adjustable amplifier and its inverting input are connected in series an additional filter of the main signal and an attenuator, in one of the arms the control thermal resistance is switched on, the control input of which is connected to the output of the pilot signal filter, and an additional additional cable is connected between the output of the pilot source and the attenuator input. Ny control filter. The drawing shows a structural electrical circuit of the device for automatic stabilization of the gain. The device contains a series-connected source 1 of the control signal, this divider 2, an adder 3, an adjustable amplifier 4 and a filter 5 of the main signal, the input of which is connected to the filter 6 of the control signal. In addition, the device contains an additional filter 7 of the main signal and an attenuator, one of the arms of which includes a controlled thermal resistance 8, and the other resistor includes an exact resistor 9. The test filter also includes an additional filter 10 of the control signal. The device works as follows. The control signal from the source 1 of the control signal is fed to the input of the reference divider 2 and. through an additional filter 10 of the control signal to an attenuator, one of the arms of which is formed by an exact 9 L resistor and the second is controlled by a thermal resistance 8. The signal from the output of the reference divider 2 is fed to one input of the adder 3, to the second input of which the main signal arrives subject to adjustment. On control. the input of the controlled thermal resistance 8 receives a signal from the output of the adjustable amplifier 4 through the filter of the control signal 6, designed to filter the average value of the voltage in the case of using a constant voltage as a control signal. The operating point of the adjustable amplifier 4 is set automatically in the linear region and this happens as follows. For example, when increasing the counter signal at the first input of adjustable amplifier 4 using reference divider 2, the control input of thermal resistance 8 receives a voltage, the value of which is determined by the difference of control voltages at the first and second inputs of adjustable amplifier 4 and its transfer coefficient without feedback. In this case, the magnitude of the controlled thermal resistance 8 also changes, so that the control voltage at the second input of the adjustable amplifier 4 becomes approximately equal to the voltage at its first input. Thus, with each change in the transfer ratio of the reference divider 2, the transfer ratio of the attenuator changes and the operating point of the adjustable amplifier 4 is set in the operating voltage range of the controlled thermal resistance 8. The main signal to be adjusted is fed to the second input of the adder 3 and the course of the adjustable amplifier 4 through the filter 5 of the main signal to the output device At the same time, it comes from the output of adjustable amplifier 4 through an additional filter 7 of the main signal to the input of an attenuator which forms a negative feedback circuit for the frequency spectrum of the main signal. The transmission coefficient of adjustable amplifier 4 is determined by the ratio of the resistance values of the exact resistor 9 and thermal resistance 8, which is set reference divider 2. The proposed device for automatic stabilization of the gain is simpler than the known one because it contains one amplifier, while for the realization of the known device it is necessary to have two amplifiers. Moreover, it is possible to stabilize the operating point of the amplifier in the linear part of the characteristics without reducing its transmission coefficient indirect feedback using an attenuator. Apparatus of the Invention A device for automatic stabilization of a gain, containing a serially connected source of a control signal, a reference divider, an adder, the second input of which is connected to a source of the main signal, an adjustable amplifier and a filter of the main signal, the input of which is connected to a control signal that, for the sake of simplicity, between the output of the adjustable amplifier and its inverted one input is connected in series an additional one, the main signal filter and an attenuator, in one of the arms of which a controlled thermal resistance is included, the control input of which is connected to the output of the pilot signal filter, and an additional pilot signal filter is connected between the output of the pilot signal source and the attenuator input. Sources of information taken into account during the examination 1. Krisilov Yu.D. Automatic adjustment and stabilization of the amplification of transistor circuits, M, Sov. radio, 1972, p. 194, fig. 4.26 b.